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针对采用固液混合冲压发动机的地空导弹弹道设计中出现的新问题, 给出了解决这些问题的弹道设计方法, 并利用弹道仿真对其进行了验证。 相似文献
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本文研究了溶胶-凝胶(Sol-gel)法制备碳纤维三维编织物增强氧化铝(Al2O3)基复合材料的成型工艺及其力学性能,研究了两种主要起始物Al(NO3)3、AlCl3配制的氧化铝溶胶对复合材料成型工艺和力学性能的影响。分别以Al(NO3)3和AlCl3为起始物,制备得到Ⅰ#、I#复合材料。研究表明,以Al(NO3)3为起始物配制的溶胶粘度较小,利于材料的致密化。经过溶胶浸渍、凝胶、裂解13个周期后,Ⅰ#材料的密度和室温三点弯曲强度分别为1.86g/cm3和145.2MPa,而II#材料的密度和室温三点弯曲强度分别为1.63g/cm3和104.1MPa,材料均呈典型的韧性断裂模式。用扫描电子显微镜(SEM)观察试样的断口形貌,发现断口表面有大量的纤维拔出,纤维表现了较好的增韧效果。 相似文献
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《防务技术》2022,18(11):2074-2082
To improve the safety of HMX, HMX/NH2-GO composite was prepared with aqueous ammonia functionalized graphene oxide (NH2-GO). The composite was characterized by SEM, Zeta potential, XPS, Raman spectrum, XRD, HPLC, DSC and BAM sensitivity test. The results indicated that the functionalization with aqueous ammonia can enhance the interaction between GO and HMX, and more efficiently desensitize the explosive. The optimal impact sensitivity of the HMX/NH2-GO composite can be not less than 40 J, which is also the most insensitivity compared to the previous reports prepared by coating desensitization with non-energetic desensitized material. Moreover, the potential reason for the different impact and friction sensitivity was also discussed, which may bring a novel perspective to achieve the desensitization of energetic material. 相似文献
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《防务技术》2014,10(4):375-383
The influence of three factors, such as volume percentage of reinforcement particles (i.e. Al2O3), tool tilt angle and concave angle of shoulder, on the mechanical properties of Cu–Al2O3 surface composites fabricated via friction stir processing was studied. Taguchi method was used to optimize these factors for maximizing the mechanical properties of surface composites. The fabricated surface composites were examined by optical microscope for dispersion of reinforcement particles. It was found that Al2O3 particles are uniformly dispersed in the stir zone. The tensile properties of the surface composites increased with the increase in the volume percentage of the Al2O3 reinforcement particles. This is due to the addition of the reinforcement particles which increases the temperature of recrystallization by pinning the grain boundaries of the copper matrix and blocking the movement of the dislocations. The observed mechanical properties are correlated with microstructure and fracture features. 相似文献
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测试了国产T300级碳纤维的单丝和复丝拉伸强度,并用Weibull分布来描述碳纤维单丝平均拉伸强度。采用拉挤工艺制备出国产碳纤维复合线芯,测试了国产碳纤维复合线芯的弯曲强度和短梁剪切强度性能。结果表明:国产T300级碳纤维单丝拉伸强度性能达到东丽T300碳纤维水平,且分散性更小;复丝强度略低。国产T300级碳纤维集束性较差,在拉挤抽纱过程中,容易夹纱和起毛。在纤维体积含量基本相同情况下,国产T300级碳纤维复合线芯力学性能与东丽T700碳纤维复合线芯力学性能相差不大。 相似文献
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Force chains based mesoscale simulation is conducted to investigate the response behavior of aluminum-polytetrafluoroethylene (Al-PTFE) granular composites under a low-velocity impact. A two-dimensional model followed the randomly normal distribution of real Al particles size is developed. The dynamic compressive process of Al-PTFE composites with varied Al mass fraction is simulated and validated against the experiments. The results indicate that, force chains behavior governed by the number and the size of agglomerated Al particles, significantly affects the impact response of the material. The failure mode of the material evolves from shear failure of matrix to debonding failure of particles with increasing density. A high crack area of the material is critical mechanism to arouse the initiation re-action. The damage maintained by force chains during large plastic strain builds up more local stresses concentration to enhance a possible reaction performance. In addition, simulation is performed with identical mass fraction but various Al size distribution to explore the effects of size centralization and dispersion on the mechanical properties of materials. It is found that smaller sized Al particle of com-posites are more preferred than its bulky material in ultimate strength. Increasing dispersed degree is facilitated to create stable force chains in samples with comparable particle number. The simulation studies provide further insights into the plastic deformation, failure mechanism, and possible energy release capacity for Al-PTFE composites, which is helpful for further design and application of reactive materials. 相似文献
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PIP工艺制备的C/SiC复合材料中SiC基体富碳,因此增强体和基体均容易氧化。碳纤维和无涂层保护C/SiC复合材料试样在400~1300℃的氧化速率随温度升高而加快,低温为反应控制,高温为扩散控制。CVD-SiC涂层保护C/SiC复合材料和由CVD-SiC层、自愈合层、CVD-SiC层三层涂层保护C/SiC复合材料在400~1300℃的氧化先随温度升高而加快,然后减慢。三层涂层在800~1300℃有非常好的保护效果。扫描电镜照片显示自愈合层的玻璃态物质进入涂层裂纹中,填充裂纹且阻挡氧的通过,从而有良好的抗氧化保护效果。 相似文献
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UHMWPE复合材料抗爆实验研究 总被引:1,自引:0,他引:1
运用定制的聚偏四氟乙烯(PVDF)压电传感器,直接测量爆炸载荷下UHMWPE层叠无纬布和PU基体的UHMWPE复合材料内部冲击波压力峰值,对其冲击波衰减特性进行了实验研究。实验结果表明:UHMWPE复合材料对爆炸冲击波有很好的衰减作用,含有PU基体的UHMWPE复合材料比UHMWPE层叠无纬布对爆炸冲击波有更好的衰减效果。UHMWPE复合材料具有轻质、吸收冲击波效率高等特性,在爆炸冲击波防护领域有很好的应用前景。 相似文献